Systematic review and meta-analysis of pregnancy outcomes in women with polycystic ovary syndrome

Screening for polycystic ovary syndrome (PCOS) in antenatal care is inadequate, largely owing to the lack of clarity around whether PCOS is an independent risk factor for pregnancy complications. This systematic review and meta-analysis include 104 studies and 106,690 pregnancies in women with and without PCOS from inception until 13th July 2022. We report that women with PCOS are younger and have higher body mass index (BMI) around conception and have greater gestational weight gain. The odds of miscarriage, gestational diabetes mellitus, gestational hypertension, pre-eclampsia and cesarean section are higher in women with PCOS. The increased odds of adverse outcomes in PCOS remain significant when age and BMI are matched and when analyses are restricted to high-quality studies. This work informed the recommendations from the 2023 international evidence-based guideline for the assessment and management of polycystic ovary syndrome, emphasizing that PCOS status should be captured in all women who are planning to, or have recently become pregnant to facilitate prevention of adverse outcomes and improve pregnancy outcomes.

Screening for polycystic ovary syndrome (PCOS) in antenatal care is inadequate, largely owing to the lack of clarity around whether PCOS is an independent risk factor for pregnancy complications.This systematic review and meta-analysis include 104 studies and 106,690 pregnancies in women with and without PCOS from inception until 13th July 2022.We report that women with PCOS are younger and have higher body mass index (BMI) around conception and have greater gestational weight gain.The odds of miscarriage, gestational diabetes mellitus, gestational hypertension, pre-eclampsia and cesarean section are higher in women with PCOS.The increased odds of adverse outcomes in PCOS remain significant when age and BMI are matched and when analyses are restricted to high-quality studies.This work informed the recommendations from the 2023 international evidence-based guideline for the assessment and management of polycystic ovary syndrome, emphasizing that PCOS status should be captured in all women who are planning to, or have recently become pregnant to facilitate prevention of adverse outcomes and improve pregnancy outcomes.
Polycystic ovary syndrome (PCOS) is a lifelong condition and, with a prevalence of 5% to 13%, is the most prevalent endocrinopathy in women of reproductive age 1 .In adults, diagnosis is based on a minimum of two criteria of hyperandrogenism, oligo-anovulation and/or polycystic ovaries 2 .Obesity is common in PCOS 3 and exacerbates intrinsic insulin resistance and the clinical manifestations of PCOS 4 .Anxiety, depression and poor quality of life are also more common in women with PCOS compared with women without PCOS 5 .Affected women are also more likely to have anovulatory infertility 6 , requiring treatments such as assisted reproductive technology (ART) to conceive.While each of the metabolic, psychological, and reproductive features of PCOS is recognized in antenatal care guidelines as an independent risk factor for pregnancy complications, women with PCOS are not universally considered a high-risk group for pregnancy complications 7 .
In previous meta-analyses, women with PCOS were shown to have elevated odds of pregnancy complications.These include significantly higher odds of miscarriage, gestational diabetes mellitus (GDM), gestational hypertension, pre-eclampsia, cesarean section [8][9][10][11][12] , gestational weight gain 8 , and induction of labor 8 , compared with women without PCOS.Instrumental delivery was similar in women with and without PCOS 9,10 , while perinatal depression was an untapped area of research in this population 8 .Importantly, the increased odds of pregnancy complications in PCOS were influenced by PCOS diagnostic criteria, age, obesity, conception mode 8 , and quality of studies 8,9,11 .
While empirical evidence demonstrates that women with PCOS have higher odds of pregnancy complications, substantial clinical heterogeneity was reported in pooled analyses.Furthermore, subgroups and univariate or multivariate meta-regression analyses had small numbers of studies, which were insufficient to obtain meaningful results 8 .In the context of the 2023 update of the International Evidence-Based Guideline for the Assessment and Management of Polycystic Ovary Syndrome 2 , we aimed to update our prior systematic review, meta-analysis, and meta-regression 8 to determine the prevalence of pregnancy complications in women with and without PCOS.With an expanded data set, we also aimed to explore whether pregnancy outcomes in women with and without PCOS are affected by age, body mass index (BMI), conception with ART, or high-quality study design.

Results
The literature search identified 4595 articles published since 2017, of which 39 studies were included in the meta-analysis after full-text review.Agreements between the reviewers in the title and abstract screening and full-text screening were considered good and excellent, with kappa values of 0.72 and 0.94, respectively 13 .There were 77 studies in the 2017 meta-analysis, of which 65 studies were included (after removing those not meeting the updated eligibility criteria for PCOS diagnosis).Combining the new and previous articles, a total of 104 articles were included in the present systematic review (Fig. 1).
Overall, 69 studies reported age, and 58 studies reported BMI either at preconception or at early pregnancy.Women with PCOS were younger (MD: −0.63 years; 95% CI: −0.87, −0.39) and had a higher BMI (1.76 kg/m 2 ; 1.44, 2.08) compared with women without PCOS.Sensitivity analysis showed that after exclusion of studies in which women were taking metformin after conception 16,17,20 or conceived after bariatric surgery 21 , lower age (−0.68 years; −0.93, −0.44) and higher BMI (1.68 kg/m 2 ; 1.35, 2.00) remained significant in PCOS.Table 1 shows the effect sizes for outcomes of interest on pooled and sensitivity analyses.Forest and cumulative plots, funnel plots (Supplementary Figs.1a to 10a) and Egger's test results are provided in the Supplementary information.

Pre-eclampsia
,109 .Pre-eclampsia was defined as gestational hypertension along with proteinuria in three studies 66,78,116 , gestational hypertension along with proteinuria >2+ by urine stick in two studies 16,98 , gestational hypertension along with proteinuria >300 mg in 24 h in thirteen studies 14,32,55,58,60,69,74,75,77,83,88,103,104 , gestational hypertension along with proteinuria >300 mg in 24 h or ≥1+ by urine stick in one study 102 , gestational hypertension along with proteinuria or endorgan dysfunction in two studies 41,113 , gestational hypertension along with proteinuria >300 mg in 24 h or a spot urine protein/creatinine ratio of ≥30 mg/mmol or when the hemolysis elevated liver enzymes low platelets syndrome was present in one study 107 , gestational hypertension along with proteinuria 100 mg/dL or >2+ in at least two random urine specimens collected six or more hours apart or >300 mg in 24 h and/or pathologic edema in three studies 71,81,115 .The remaining 22 studies did not provide a definition. The odds f pre-eclampsia were higher in women with PCOS compared with women without PCOS (OR: 2.30; 95% CI: 1.87, 2.82).Sensitivity analysis showed that, after exclusion of studies in which women were taking metformin after conception 16,20 or conceived after bariatric surgery 21   suggested a diminishing magnitude in the odds of pre-eclampsia in women with and without PCOS over time.

Eclampsia
Two studies reported eclampsia in 46 women with PCOS and 246 women without PCOS 32,60 .One study reported no pregnancies affected by eclampsia 60 ; therefore, only one study 32 in post-ART pregnancies was used in the meta-analysis for generating the OR.The odds of eclampsia were similar in women with and without PCOS (OR: 1.16; 95% CI: 0.44, 3.08).Participants in this study were not taking metformin after conception.

Induction of labor
Eight studies reported the induction of labor in 1029 women with PCOS and 10052 women without PCOS 14,21,56,82,102,104,105,107 .The odds of induction of labor were similar in women with and without PCOS (OR: 1.62; 95% CI: 0.97, 2.70).Sensitivity analysis showed that after exclusion of a study in which women conceived after bariatric surgery 21 , the induction of labor was higher in the PCOS group (1.69; 1.01, 2.85).Cumulative meta-analysis suggested that the odds of induction of labor in women with and without PCOS did not substantially change over time; however, one study published before 2012 contributed to heterogeneity.No studies reported the induction of labor in post-ART pregnancies.The odds of induction of labor were higher in prospective studies 56,102,104,105,107 but similar in a single high-quality, age-and BMImatched study that reported outcomes in pregnancies with GDM 56 .

Instrumental delivery
Ten studies reported instrumental delivery in 1517 women with PCOS and 8570 women without PCOS 21,56,62,66,72,98,103,105,111,116 .The odds of instrumental delivery were similar in women with and without PCOS (OR: 1.18; 95% CI: 0.91, 1.53).Sensitivity analysis showed that after exclusion of a study in which women conceived after bariatric surgery 21 , instrumental delivery remained similar in women with and without PCOS (1.17; 0.90, 1.52).Cumulative meta-analysis suggested that the odds of instrumental delivery in women with and without PCOS did not substantially change over time.The odds of instrumental delivery were similar in prospective 56,62,66,105,116 and high-quality studies 56,66,88 .No studies reported instrumental delivery in post-ART pregnancies.Only one study reported instrumental delivery in pregnancies with GDM 56 , whereby the odds were similar in women with and without PCOS (1.35; 0.22, 8.41).In four studies, women with and without PCOS were matched for both age and BMI 56,66,72,88 , in which PCOS was not associated with instrumental delivery.

Perinatal depression
One study reported perinatal depression in 3590 women with PCOS and 23017 women without PCOS 118 , with similar odds between groups (OR: 1.58; 95% CI: 0.87, 2.88).Participants in this study were not taking metformin after conception.

Meta-regression
Significant heterogeneity (I 2 > 50%) was observed for studies reporting miscarriage, GDM, gestational hypertension, gestational weight gain, induction of labor and cesarean section.There was an insufficient number of studies (<10) for the induction of labor to perform metaregression.
Where reported (Table 2), age was lower in women with PCOS for miscarriage and GDM.However, BMI was higher in women with PCOS for miscarriage, GDM, gestational hypertension, gestational weight gain and cesarean section.In univariate meta-regression, variation in age was associated with increased odds of miscarriage, with a one-year increase in age being associated with 32% higher odds of miscarriage.Age reduced the tau 2 value for miscarriage from 0.31 to 0.22, indicating that 29% of between-study variance may be attributable to age.However, variation in BMI across studies was not associated with increased odds of any of the outcomes in the meta-regression.

Discussion
In this comprehensive systematic review, meta-analysis, and metaregression of 104 published articles in 17384 women with and 89306 women without PCOS, women with PCOS were younger, had higher BMI around conception and had higher gestational weight gain.They were more likely to experience pregnancy complications, including miscarriage, GDM, hypertension, pre-eclampsia, induction of labor, and cesarean section.Induction of labor became higher in PCOS in the sensitivity analysis, excluding women who conceived after bariatric surgery and in prospective studies.In sensitivity meta-analyses, PCOS remained associated with higher miscarriage, GDM, hypertension and pre-eclampsia in post-ART pregnancies, prospective and high-quality studies and age-matched and age-and BMI-matched studies.Cesarean section remained associated with PCOS in prospective and highquality studies and age-matched and age-and BMI-matched studies, but it was not associated with PCOS in post-ART pregnancies.
Overweight and obesity affect approximately 70% of women in the United States and are increasing worldwide 119 .There is also a global increase in gestational weight gain above recommendations 120 , which is a key independent contributor to obesity in the female population.Suboptimal weight around conception and insufficient or excessive gestational weight gain are associated with adverse maternal and offspring outcomes 121 .Aging is associated with a higher weight and worsened pregnancy outcomes 122 .We found that women with PCOS conceive at a higher BMI compared with women without PCOS and have higher gestational weight gain.These were assessed only and for the first time in our previous systematic review and meta-analysis 8 and have been reaffirmed in these updated analyses.Mean differences in gestational weight gain did not have substantial variation over time.Women with PCOS were also younger.We were underpowered for the majority of the sensitivity analyses by age-matched or age-and BMImatched studies.Our findings suggest that the higher gestational weight gain in PCOS is likely related to factors other than PCOS status, such as age and BMI.However, the higher odds of miscarriage, GDM, gestational hypertension, pre-eclampsia, and cesarean section are probably independent of age and BMI.The 2023 International Evidence-based PCOS Guideline 2 recommends early lifestyle intervention in women with PCOS to manage weight and improve fertility and pregnancy outcomes.However, the association of PCOS with increased odds of miscarriage, GDM, gestational hypertension, preeclampsia and cesarean section is probably independent of age and/ or BMI.
Miscarriage affects 15.3% of confirmed pregnancies worldwide 123 .Here, we found that women with PCOS have 49-53% higher odds of miscarriage, and these increased odds were independent of time and ART and were retained in both prospective and high-quality studies.Age was a risk factor for increasing the odds of miscarriage independent of PCOS in univariate meta-regression.Our findings of increased odds of miscarriage in PCOS and the association with age are consistent with prior literature 8 and are not reported in other systematic reviews [9][10][11][12] .Here, we report for the first time that higher odds of miscarriage were observed in a younger population of women with PCOS.While ovulation rates improve in women with PCOS as they age, successful pregnancy and live births decrease with age 124 .This highlights that the odds of miscarriage would probably be even higher in PCOS if age was similar between the two groups.The magnitude for higher odds of miscarriage in PCOS decreased in post-ART pregnancies, but inconsistent with our original meta-analysis 8 , it remained higher in PCOS, with significant heterogeneity.However, the recent findings reported herein are based on a larger number of included studies and more accurate PCOS diagnosis and thus are likely more reliable.
Gestational diabetes affects up to 30% of pregnancies, depending on diagnostic criteria and ethnicity 125 .It is associated with increased rates of cesarean section, preterm labor, macrosomia, and large-forgestational age offspring 126 and with increased maternal risk for cardiovascular and cerebrovascular diseases later in life 127 .We found that PCOS is associated with 2-3-fold higher odds of GDM, and the increased odds were independent of time and ART and were retained in both prospective and high-quality studies.Where information was provided, women with PCOS were younger and had a higher BMI than women without PCOS.In those with PCOS, neither age nor BMI was associated with increased odds of GDM in the adjusted analysis, highlighting that the higher odds of GDM in PCOS are likely due to factors other than increased BMI.The magnitude for higher odds of GDM in PCOS decreased in post-ART pregnancies, but inconsistent with our prior meta-analysis 8 , it remained higher in PCOS.The attenuated odds are probably due to BMI restrictions for ART and poorer treatment outcomes in individuals with higher BMI 128 .Compared to the previous review, however, the validity of findings in this review is increased by the larger number of included studies and more accurate PCOS diagnosis.The 2023 International Evidence-based PCOS Guideline recommends that women with PCOS are offered an oral glucose tolerance test (OGTT) for early diagnosis and intervention, ideally at preconception; if not performed at preconception, at the first antenatal visit and then repeated at 24-28 weeks of pregnancy.
Hypertensive disorders of pregnancy affect 8.5-16.7% of pregnancies, depending on ethnicity 129 .Gestational hypertension and preeclampsia are leading causes of pregnancy-related maternal mortality and are associated with 2-3-fold increases in long-term mortality from maternal cardiovascular disease 130 .We found that PCOS is associated with 2-3-fold higher odds of hypertensive disorders of pregnancy, independent of ART, and this was retained in both prospective and high-quality studies.Over time, the odds of pre-eclampsia diminished but remained higher in PCOS.This could be due to later studies including younger women with PCOS 131 who are less likely to have chronic hypertension 132 .Where information was provided, women with PCOS were of similar age as women without PCOS and had higher BMI, with neither being associated with increased odds of gestational hypertension on meta-regression.This highlights that the higher odds of hypertensive disorders of pregnancy in PCOS were due to factors other than increased BMI.We confirm the findings of our previous meta-analysis 8, which showed that the higher odds of hypertensive disorders of pregnancy are likely independent of, but worsened by, GDM; however, we were underpowered for this sensitivity analysis.The higher odds of hypertensive disorders of pregnancy in PCOS were retained in post-ART pregnancies.This is inconsistent with the findings of our previous meta-analysis 8 , although the results are likely more reliable in the present review given the larger number of studies included here.Based on these findings, the 2023 International Evidence-based PCOS Guideline 2 has recommended monitoring of blood pressure in women with PCOS, ideally commencing in the preconception period.
Although spontaneous vaginal delivery is the most common type of delivery, the rates of induction of labor, instrumental delivery and cesarean section are increasing 133 .Induced and/or operative deliveries are indicated in high-risk pregnancies for mothers or offspring.The underlying conditions and the interventions may both increase the risk of hemorrhage, infection, and rehospitalization 134 .We found that women with PCOS have higher odds of cesarean section, which were retained in both prospective and high-quality studies.However, the odds were similar in post-ART pregnancies in women with and without PCOS.For the induction of labor and instrumental delivery, the odds were similar in women with and without PCOS, which may have been masked by the increased odds of cesarean section in women with PCOS.Our findings are consistent with the findings of a prior systematic review 8 .While the number of included studies was small, the higher odds of cesarean section appear to be independent of but worsened by GDM, which is consistent with our previous metaanalysis 8 .The strengths of this systematic review and meta-analysis are the inclusion of the largest number of observational studies and participants across five continents to date.We excluded less reliable diagnostic methods such as self-reported PCOS status and ICD codes, as these can introduce inaccuracies due to recall bias or misinterpretation of the diagnosis and the inherent variability in diagnostic criteria across medical organizations 135,136 .Coupled with the heterogeneous nature of PCOS presentations, these less reliable methods can increase the potential for misdiagnosis 137,138 , thus capturing those with more severe symptoms and/or those not meeting the diagnostic criteria and distorting the findings on pregnancy outcomes.For the first time, we reported the mean age and BMI corresponding to each outcome of interest and performed cumulative analyses to assess the potential impact of time on the outcomes.We performed sensitivity analyses to assess the potential impact of confounders, and we also performed meta-regression to assess the impact of age and BMI where substantial heterogeneity was observed, a pioneering approach from our previous systematic review.The certainty of evidence was assessed for individual outcomes using the GRADE approach.A limitation of this review is the inclusion of studies that were published in English, which contributes to potential language bias since English studies are more likely to demonstrate positive findings.Other limitations include the unclear or inconsistent definitions for some of the outcomes; small number of studies for sensitivity analyses by age-matched, BMI-matched and high-quality studies; and the insufficient number of studies for metaanalyses on eclampsia and perinatal depression.Furthermore, 64.1% of the included studies were of moderate to high risk of bias mainly due to high confounding bias (57.7%) followed by high selection bias (31.7%); however, we conducted sensitivity analyses of high-quality studies that confirmed the overall findings for the majority of outcomes.As this was a meta-analysis of aggregate-level data, we could only explore confounding factors in relation to age, BMI, or post-ART populations; hence, other potentially important confounders could not be accounted for.
In this systematic review and meta-analysis, we found that women with PCOS are more likely to experience pregnancy complications, which are independent of but likely exacerbated by increased age and BMI and by assisted conception.The increased odds for pregnancy complications were impacted by the quality of the studies.Women with PCOS are more likely to have pregnancy-related obesity, which could be both a risk factor for and a consequence of metabolic disorders in pregnancy.This systematic review and meta-analysis of 106690 pregnancies in women with and without PCOS directly informs the 2023 International Evidence-based PCOS Guideline recommendation to consider PCOS as a risk factor for pregnancy complications in preconception and in antenatal care guidelines to enable timely screening, proper monitoring, and early intervention.Additional risk factors, such as age, BMI and ART, should be considered in women with PCOS.Individual patient data meta-analyses with sufficient statistical power are warranted to further investigate the impact of PCOS features and to clarify important confounders and sources of heterogeneity in the relationship between PCOS and pregnancy outcomes.

Search strategy and selection criteria
This systematic review and meta-analysis is an update of previously published systematic reviews 8,139 and was conducted in accordance with the Meta-Analyses and Systematic Reviews of Observational Studies (MOOSE) guidelines 140 .Given that the majority of studies on pregnancy outcomes in prospectively identified PCOS come from selected populations with a high-risk profile 141 , we did not prioritize the distinction between retrospective and prospective study designs; rather, our emphasis was on the overall quality of the studies.The protocol for the original review was prospectively registered in PROSPERO (CRD 42017067147).The methods and results of the previous search with the inclusion of publications up to the 4th of April 2017 have been previously published 8,139 .The search was limited to English language studies and updated (MBK) from 2017 to 13th of July 2022 through Medline, Medline in-process, and other non-indexed citations, EMBASE, and all EBM reviews, including Cochrane Database of Systematic Reviews, Cochrane Clinical Answers, Cochrane Central Register of Controlled Trials, American College of Physicians Journal Club, Cochrane Methodology Register, Health Technology Assessments, The Database of Abstracts of Reviews of Effectiveness and the National Health Service Economic Evaluation Database.Bibliographies of recent and relevant systematic reviews and meta-analyses were searched to identify additional studies.As was done previously, search terms included a broader number of outcomes, distributed to two systematic reviews and meta-analyses 8,139 .
Eligible studies included studies reporting observational data on gestational weight gain, miscarriage, GDM, gestational hypertension, pre-eclampsia, eclampsia, induction of labor, instrumental delivery, cesarean section, and perinatal depression in women with and without PCOS.In a protocol amendment, we only included studies in which the criteria used for PCOS diagnosis fulfilled the Rotterdam criteria 136 .Pregnancy outcomes were accepted according to the primary studies' definitions.
Studies published in languages other than English; case reports, case series, editorials, scoping and narrative reviews; studies using selfreported or International Classification of Diseases (ICD) for PCOS diagnosis; and studies not reporting the outcomes of interest in the two groups of PCOS versus non-PCOS were excluded.
Two reviewers (MBK, SH, or SS) independently screened studies by titles and abstracts and reviewed full texts for eligibility.Discrepancies were discussed and resolved through consensus or arbitration between reviewers.Studies identified through the new search were combined with those published before April 2017.Studies not meeting the new criteria needed for PCOS diagnosis were excluded (i.e., studies captured in the 2017 reviews 8,139 that used self-report or ICD for PCOS diagnosis were excluded from the current review).

Data analysis
Data extraction and quality appraisal were independently performed by the same reviewers.Using an a priori researcher-developed data extraction form, data were extracted from each study.These included the author, year of publication, study design, study location, participant characteristics, and frequency/mean and standard deviation of outcomes per group.Participant characteristics included age, BMI, mode of conception, existing medical conditions, and medications used during pregnancy.
When participants were overlapping between multiple publications for the same outcome, data from the study with the largest sample size were included in the meta-analysis.
the risk of bias was independently assessed by two reviewers (MBK, SH, or SS) using the Newcastle-Ottawa Scale (NOS) for nonrandomized studies for selection, comparability, and outcome ascertainment 142 .Studies were considered high-quality if they scored at least three stars in selection, one star in comparability, and two stars https://doi.org/10.1038/s41467-024-49749-1Nature Communications | (2024) 15:5591 in outcome ascertainment.Studies with two stars in selection, a minimum of one star in comparability, and two stars in outcome ascertainment were considered fair quality.Studies meeting neither of these two thresholds were considered low quality.
We performed random-effects meta-analyses to generate pooled effect estimates, reported as the mean differences (MDs) or odds ratios (ORs) with 95% confidence intervals (CIs), for the association between PCOS status and pregnancy outcomes.Between-study heterogeneity was assessed using the I² statistic; I² above 50% was deemed substantial heterogeneity 143 .Sensitivity analyses were performed, excluding studies in which participants were taking metformin after conception or conceived after bariatric surgery.Cumulative random-effects meta-analyses based on Hedge's adjusted g and its 95% confidence intervals (95% CI) 144 were performed to explore the effect of time (publication year) on the association of PCOS with each outcome of interest.Publication bias was assessed using funnel plots.We assessed the certainty of evidence for each outcome according to the Grading of Recommendations, Assessment, Development and Evaluations (GRADE) system 145 using Gradepro software 146 .
Sensitivity analyses of the outcomes by conception with ART (in vitro fertilization, in vitro maturation intracytoplasmic sperm injection, zygote intrafallopian transfer, and gamete intro-fallopian transfer) and prospective and high-quality studies as well as by ageand BMI-matched designs were also performed after exclusion of studies in which women were taking metformin after conception or conceived after bariatric surgery.
Restricted maximum likelihood (REML)-based random effects meta-regression was performed to explore the effects of variations in age and BMI on each outcome of interest if there were equal to or greater than 10 studies per coefficient.Effect sizes of age and BMI for individual studies were used in meta-regression analyses.The percentage of between-study variance explained by the model (tau 2 ) was estimated using the Knapp-Hartung modification.Normal distributions for mean values were checked using skewness-kurtosis tests.As age and BMI were not both significant (p < 0.01) for any of the outcomes on univariate meta-regression analyses, multivariable metaregression could not be performed.Statistical significance was defined as two-sided P < 0.05.All statistical analyses were performed using Stata version 17 (StataCorp, 14 College Station, Texas, USA).

Reporting summary
Further information on research design is available in the Nature Portfolio Reporting Summary linked to this article.

Fig. 1 |
Fig. 1 | PRISMA flow diagram of study selection.This figure illustrates the PRISMA (Preferred Reporting Items for Systematic Reviews and Meta-Analyses) flow diagram detailing the study selection process.The diagram includes the number of records identified, screened, assessed for eligibility, and included in the meta-analysis.

Table 1 (
continued) | Association of polycystic ovary syndrome with pregnancy outcomes ART assisted reproductive technology, BMI body mass index, MD mean difference, OR odds ratio.

Table 2 |
Effect of age and BMI on the association of polycystic ovary syndrome with pregnancy outcomes